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Direct linkTravis T. Fuchs; Mike Arsenault – School Science Review, 2017
Students, as well as teachers, often learn what makes sense to them, even when it is wrong. These misconceptions are a problem. The authors sought a quick, quantitative way of identifying student misconceptions in secondary science. Using the University of Toronto's National Biology Competition test data, this article presents a method of quickly…
Descriptors: Science Education, Secondary School Science, Misconceptions, Scientific Concepts
Liu, Qing; Nesbit, John C. – International Journal of Science Education, 2018
This study investigated how studying a refutational map, a type of argument map, affected conceptual change. Refutational maps visually display both correct and alternative conceptions. Participants (N = 120) were randomly assigned to (1) a refutational map condition, (2) a refutational text condition, and (3) a non-refutational text condition.…
Descriptors: Concept Mapping, Persuasive Discourse, Concept Formation, Misconceptions
Kalas, Pamela; O'Neill, Angie; Pollock, Carol; Birol, Gulnur – CBE - Life Sciences Education, 2013
We have designed, developed, and validated a 17-question Meiosis Concept Inventory (Meiosis CI) to diagnose student misconceptions on meiosis, which is a fundamental concept in genetics. We targeted large introductory biology and genetics courses and used published methodology for question development, which included the validation of questions by…
Descriptors: Scientific Concepts, Misconceptions, Genetics, Introductory Courses
